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相关概念视频

The Wave Nature of Light02:12

The Wave Nature of Light

The nature of light has been a subject of inquiry since antiquity. In the seventeenth century, Isaac Newton performed experiments with lenses and prisms and was able to demonstrate that white light consists of the individual colors of the rainbow combined together. Newton explained his optics findings in terms of a "corpuscular" view of light, in which light was composed of streams of extremely tiny particles traveling at high speeds according to Newton's laws of motion.
Interference and Diffraction02:18

Interference and Diffraction

Interference is a characteristic phenomenon exhibited by waves. When two electromagnetic waves interact with their peaks and troughs coinciding, a resulting wave with enhanced amplitude is produced. This is known as constructive interference. In this case, the two waves interacting are in phase with each other.
Photoelectric Effect02:26

Photoelectric Effect

When light of a particular wavelength strikes a metal surface, electrons are emitted. This is called the photoelectric effect. The minimum frequency of light that can cause such emission of electrons is called the threshold frequency, which is specific to the metal. Light with a frequency lower than the threshold frequency, even if it is of high intensity, cannot initiate the emission of electrons. However, when the frequency is higher than the threshold value, the number of electrons ejected...
Emission Spectra02:39

Emission Spectra

When solids, liquids, or condensed gases are heated sufficiently, they radiate some of the excess energy as light. Photons produced in this manner have a range of energies, and thereby produce a continuous spectrum in which an unbroken series of wavelengths is present.
The de Broglie Wavelength02:32

The de Broglie Wavelength

In the macroscopic world, objects that are large enough to be seen by the naked eye follow the rules of classical physics. A billiard ball moving on a table will behave like a particle; it will continue traveling in a straight line unless it collides with another ball, or it is acted on by some other force, such as friction. The ball has a well-defined position and velocity or well-defined momentum, p = mv, which is defined by mass m and velocity v at any given moment. This is the typical...
Electromagnetic Wave Equation01:24

Electromagnetic Wave Equation

Maxwell's equations for electromagnetic fields are related to source charges, either static or moving. These fields act on a test charge, whose trajectory can thus be determined using suitable boundary conditions. The objective of electromagnetism is thus theoretically complete.
However, although electric and magnetic fields were first introduced as mathematical constructs to simplify the description of mutual forces between charges, a natural question emerges from Maxwell's equations: What...

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相关实验视频

Updated: Jun 29, 2026

Using Microwave and Macroscopic Samples of Dielectric Solids to Study the Photonic Properties of Disordered Photonic Bandgap Materials
10:35

Using Microwave and Macroscopic Samples of Dielectric Solids to Study the Photonic Properties of Disordered Photonic Bandgap Materials

Published on: September 26, 2014

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弥合了表面物理学和光子学之间的差距.

Pekka Laukkanen1, Marko Punkkinen1, Mikhail Kuzmin1

  • 1Department of Physics and Astronomy, University of Turku, Turku, Finland.

Reports on progress in physics. Physical Society (Great Britain)
|February 19, 2024
PubMed
概括
此摘要是机器生成的。

半导体表面缺陷会导致光子设备的重大损失. 通过将表面物理与光子学相结合,通过先进的被动化技术提供了改善设备性能和减少电损耗的解决方案.

关键词:
抗反射涂层是一种反反射涂层.原子和电子结构的原子和电子结构携带者重组组合可以实现.接口缺陷 接口缺陷金属接触接触金属接触表面氧化过程中的表面氧化.湿化学处理 湿化学处理

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科学领域:

  • 光子学 是一个光子学.
  • 表面物理 表面物理
  • 半导体技术 半导体技术

背景情况:

  • 光子设备的性能受到半导体表面缺陷的限制,导致光电损失.
  • 挑战包括信号衰减,光吸收,载体重组和泄漏电流.
  • 目前的被动化方法需要对表面现象的原子级理解.

研究的目的:

  • 审查不断发展的研究,将表面物理与光子装置被动化联系起来.
  • 为了确定开放的问题和潜在的解决方案,以提高设备的性能.
  • 为了弥合基础表面科学和实际光子应用之间的差距.

主要方法:

  • 对湿化学清洗半导体表面与超高真空研究的研究进行了审查.
  • 强调了解半导体晶体上薄膜形成的嵌入式接口.
  • 集成量子力学模拟方法用于界面属性分析.

主要成果:

  • 湿化学清洗的表面不同于超高真空研究的表面.
  • 设备中嵌入的接口使原子和电子结构测量变得复杂.
  • 金属半导体接口对于光子设备中的载体传输至关重要.

结论:

  • 半导体表面的原子尺度控制是改善光子设备的关键.
  • 将表面物理见解与光子工程结合起来是必不可少的.
  • 与超薄道壁垒的低电阻,被动接触有望减少电损失.